Abstract
Extreme overall divergence and high extinction rates are typical of insular endemics. Thus, detecting and understanding nativeness is critical on islands. Resilience to extinction is explored through a mechanistic approach focusing on midwife toads (Anura: Alytidae: Alytinae), an ancient lineage that includes continental and insular species. All alytines need urgent conservation action, including control of emerging diseases and spatially explicit reserve design aimed at ensuring ecosystem health and connectivity. The only extant insular alytine is additionally affected by an introduced continental predator. This alien species acts as a driver of the prey’s near-extinction and has not elicited any evolutionary response. Both IUCN criteria and EDGE scores show that alytines are top conservation priorities. However, there is a need for also considering phenotypic and ecological uniqueness in the assessment of conservation status and urgency. The reason is that phenotypes render ecosystems functional and insular ones uniquely so. In contrast, phylogenetic relatedness is just a constraint upon, not a motor of, evolutionary novelty. Insular species are indeed particularly susceptible, but can be similarly endangered as continental ones. This paradox may be solved by recognizing the insularity syndrome in any isolated or nearly-insular ecosystem, as a function of evolutionary and dispersal potentials. This predictive model may be useful for island biogeography, invasion biology and conservation planning.
Highlights
Holocene extinctions have largely involved insular species, yet the underlying causes remain unclear
Insular species are susceptible, but can be endangered as continental ones. This paradox may be solved by recognizing the insularity syndrome in any isolated or nearly-insular ecosystem, as a function of evolutionary and dispersal potentials
All alytines are threatened, an introduced continental predator acts as a powerful driver of the near-extinction of the only extant insular species. This interaction has not elicited any evolutionary response in the native prey
Summary
Holocene extinctions have largely involved insular species, yet the underlying causes remain unclear. An important reason lies in the area affected, with two consequences. Islands are by definition much smaller than continents, providing a smaller surface area, as well as a smaller realized niche space. Island endemics have, on average, very small ranges. Any deleterious impact can extend over a whole species’ habitat on an island much more than on a continental area [1]. Each island harbors an impoverished biota; this is shown by the empirical relationship between species richness and area that is fundamental to island biogeography. Insular species worldwide account for a major part of global biodiversity
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